TY - JOUR
T1 - Registration of Image Modalities for Analyses of Tissue Samples Using 3D Image Modelling
AU - Hermann, Juliane
AU - Brehmer, Kai
AU - Jankowski, Vera
AU - Lellig, Michaela
AU - Hohl, Mathias
AU - Mahfoud, Felix
AU - Speer, Timotheus
AU - Schunk, Stefan J.
AU - Tschernig, Thomas
AU - Thiele, Herbert
AU - Jankowski, Joachim
N1 - Funding Information:
This work was funded by the ´Deutsche Forschungsgemeinschaft´ (DFG, German Research Foundation) by the Transregional Collaborative Research Centre (TRR 219; Project‐ID 322900939) to J.J. (subproject S‐03 and C‐04), M.H. (subproject M‐02 and S‐02), T.S. (subproject C‐08), and V.J. (subproject S‐03, INST 948/4S‐1 FU6.6) and European Union EU‐ITN‐H2020 “INTRICARE” (722609) and “CaReSyAn” (764474).
Publisher Copyright:
© 2020 Wiley-VCH GmbH
Copyright:
Copyright 2020 Elsevier B.V., All rights reserved.
PY - 2021
Y1 - 2021
N2 - Purpose: Biopsies are a diagnostic tool for the diagnosis of histopathological, molecular biological, proteomic, and imaging data, to narrow down disease patterns or identify diseases. Matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI MSI) provides an emerging state-of-the-art technique for molecular imaging of biological tissue. The aim of this study is the registration of MALDI MSI data sets and data acquired from different histological stainings to create a 3D model of biopsies and whole organs. Experimental design: The registration of the image modalities is achieved by using a variant of the authors' global, deformable Schatten-q-Norm registration approach. Utilizing a connected-component segmentation for background removal followed by a principal-axis based linear pre-registration, the images are adjusted into a homogeneous alignment. This registration approach is accompanied by the 3D reconstruction of histological and MALDI MSI data. Results: With this, a system of automatic registration for cross-process evaluation, as well as for creating 3D models, is developed and established. The registration of MALDI MSI data with different histological image data is evaluated by using the established global image registration system. Conclusions and clinical relevance: In conclusion, this multimodal image approach offers the possibility of molecular analyses of tissue specimens in clinical research and diagnosis.
AB - Purpose: Biopsies are a diagnostic tool for the diagnosis of histopathological, molecular biological, proteomic, and imaging data, to narrow down disease patterns or identify diseases. Matrix-assisted laser desorption/ionization mass spectrometry imaging (MALDI MSI) provides an emerging state-of-the-art technique for molecular imaging of biological tissue. The aim of this study is the registration of MALDI MSI data sets and data acquired from different histological stainings to create a 3D model of biopsies and whole organs. Experimental design: The registration of the image modalities is achieved by using a variant of the authors' global, deformable Schatten-q-Norm registration approach. Utilizing a connected-component segmentation for background removal followed by a principal-axis based linear pre-registration, the images are adjusted into a homogeneous alignment. This registration approach is accompanied by the 3D reconstruction of histological and MALDI MSI data. Results: With this, a system of automatic registration for cross-process evaluation, as well as for creating 3D models, is developed and established. The registration of MALDI MSI data with different histological image data is evaluated by using the established global image registration system. Conclusions and clinical relevance: In conclusion, this multimodal image approach offers the possibility of molecular analyses of tissue specimens in clinical research and diagnosis.
UR - https://www.scopus.com/pages/publications/85096757070
U2 - 10.1002/prca.201900143
DO - 10.1002/prca.201900143
M3 - Journal articles
C2 - 33142355
AN - SCOPUS:85096757070
SN - 1862-8346
JO - Proteomics - Clinical Applications
JF - Proteomics - Clinical Applications
ER -
